基因绝缘子——一类新发现的基因调节元件

最近几年,一类称为“绝缘子”的新的基因元件被众多的实验室发现和证实,大大丰富了我们对基因在染色质环境中如何形成拓扑学上独立的调节单元的认识。这个刚刚被找到的又一个基因“黑匣子”,尽管我们对其仍是一知半解,但让人们意外和兴奋的是:这类基因元件能给我们在转基因动物和基因治疗方面的研究和应用提供新的工具 。     

A Novel DDB2-ATM Feedback Loop Regulates Human Cytomegalovirus Replication

Human cytomegalovirus (HCMV) genome replication requires host DNA damage responses (DDRs) and raises the possibility that DNA repair pathways may influence viral replication. We report here that a nucleotide excision repair (NER)-associated-factor is required for efficient HCMV DNA replication. Mutations in genes encoding NER factors are associated with xeroderma pigmentosum (XP). One of the XP complementation groups, XPE, involves mutation in ddb2, which encodes DNA damage binding protein 2 (DDB2). Infectious progeny virus production was reduced by >2 logs in XPE fibroblasts compared to levels in normal fibroblasts. The levels of immediate early (IE) (IE2), early (E) (pp65), and early/late (E/L) (gB55) proteins were decreased in XPE cells. These replication defects were rescued by infection with a retrovirus expressing DDB2 cDNA. Similar patterns of reduced viral gene expression and progeny virus production were also observed in normal fibroblasts that were depleted for DDB2 by RNA interference (RNAi). Mature replication compartments (RCs) were nearly absent in XPE cells, and there were 1.5- to 2.0-log reductions in viral DNA loads in infected XPE cells relative to those in normal fibroblasts. The expression of viral genes (UL122, UL44, UL54, UL55, and UL84) affected by DDB2 status was also sensitive to a viral DNA replication inhibitor, phosphonoacetic acid (PAA), suggesting that DDB2 affects gene expression upstream of or events associated with the initiation of DNA replication. Finally, a novel, infection-associated feedback loop between DDB2 and ataxia telangiectasia mutated (ATM) was observed in infected cells. Together, these results demonstrate that DDB2 and a DDB2-ATM feedback loop influence HCMV replication.     

NapA (Rv0430), a Novel Nucleoid-Associated Protein that Regulates a Virulence Operon in Mycobacterium tuberculosis in a Supercoiling-Dependent Manner

Comparison of Mycobacterium tuberculosis with Escherichia coli reveals a reduction in the diversity of DNA-managing proteins, such as DNA topoisomerases, although genome sizes are similar for the two species. The same is true for nucleoid-associated proteins (NAPs), important factors in bacterial chromosome compaction, chromosome remodeling, and regulation of gene expression. In a search for still uncharacterized NAPs, we found that M. tuberculosis protein Rv0430 has NAP-like features: it binds to DNA in a length- and supercoil-dependent fashion, prefers A/T-rich DNA sequences, protects DNA from damaging agents, and modulates DNA supercoiling. At a ratio of 1 dimer/40 bps of DNA, Rv0430 bridges distant DNA segments; at 1 dimer/20 bps, it coats DNA, forming inflexible rods. Rv0430 also stimulates the DNA relaxation activity of topoisomerase I. Remarkably, Rv0430 stimulates its own promoter in a supercoil-dependent manner. It is the first gene of an operon harboring two regulators of M. tuberculosis virulence (virR and sodC), and controls the expression of these downstream virulence regulators and therefore itself is a virulence regulator. The sensitivity of rv0430 expression to supercoiling is consistent with supercoiling being important for infection by M. tuberculosis. Thus, Rv0430 is a novel NAP, doubling up as a topology modulator of M. tuberculosis.     

ICOS Regulates the Generation and Function of Human CD4+ Treg in a CTLA-4 Dependent Manner

Inducible co-stimulator (ICOS) is a member of CD28/Cytotoxic T-lymphocyte Antigen-4 (CTLA-4) family and broadly expressed in activated CD4⁺ T cells and induced regulatory CD4⁺ T cells (CD4⁺ iTreg). ICOS-related signal pathway could be activated by the interaction between ICOS and its ligand (ICOSL). In our previous work, we established a cost-effective system to generate a novel human allo-antigen specific CD4^hi Treg by co-culturing their naïve precursors with allogeneic CD40-activated B cells in vitro. Here we investigate the role of ICOS in the generation and function of CD4^hi Treg by interrupting ICOS-ICOSL interaction with ICOS-Ig. It is found that blockade of ICOS-ICOSL interaction impairs the induction and expansion of CD4^hi Treg induced by allogeneic CD40-activated B cells. More importantly, CD4^hi Treg induced with the addition of ICOS-Ig exhibits decreased suppressive capacity on alloantigen-specific responses. Dysfunction of CD4^hi Treg induced with ICOS-Ig is accompanied with its decreased exocytosis and surface CTLA-4 expression. Through inhibiting endocytosis with E64 and pepstatin A, surface CTLA-4 expression and suppressive functions of induced CD4^hi Treg could be partly reversed. Conclusively, our results demonstrate the beneficial role of ICOS-ICOSL signal pathway in the generation and function of CD4^hi Treg and uncover a novel relationship between ICOS and CTLA-4.     

核开关：一个新的基因调控元件，一类潜在的药物靶点

核开关是一类通过结合小分子代谢物调控基因表达的mRNA元件.它位于特定的mRNA区域,可以不依赖任何蛋白质因子而直接结合小分子代谢物,继而发生构象重排,影响该mRNA的活动.核开关在特定细菌中,参与调控包括维生素B₁₂和甲硫氨酸生物合成等在内的代谢途径.核开关的发现,尤其是其可以特异性紧密结合特定配体,从而精确调控生物基本代谢途径的特征,使人们开始关注它在科研和医学上的应用潜力.核开关的研究进展、主要特点和作用机制已经引起了人们的关注和思考.     

雌激素调节人血管紧张肽原基因表达的顺式作用元件分析

为了鉴定人血管紧张肽原（ＡＧＴ）基因的雌激素调控元件,在ＡＧＴ基因转录起始点和ＴＡＴＡ框之间的一段核苷酸序列与雌激素应答元件共有寡核苷酸序列高度同源,通过电泳迁移率变动分析,证明该ＤＮＡ序列为雌激素应答元件（ＨＡＧ ＥＲＥ）。将带有ＨＡＧＥＲＥ的ＡＧＴ基因核心启动子同氯霉素乙酰转移酶（ＣＡＴ）报道基因融合,或将多拷贝ＨＡＧ ＥＲＥ同ＴＫ核心启动子连接,再与ＣＡＴ基因融合,构成表达载体,与人雌激素     

Oncogenic K-Ras Regulates Bioactive Sphingolipids in a Sphingosine Kinase 1-dependent Manner

Sphingosine kinase 1 (SK1) is an important enzyme involved in the production of the bioactive lipid sphingosine 1-phosphate (S1P). SK1 is overexpressed in many forms of cancer, however, the contribution of SK1 to cancer progression is still unclear. One of the best characterized mutations found in several forms of human cancer is an activating point mutation in the Ras oncogene, which disrupts its GTPase activity and leads to stimulation of the MEK/ERK pathway. Because SK1 activity and subcellular localization have been shown to be regulated by ERK, we wished to investigate the effect of oncogenic Ras, a potent activator of the Raf/MEK/ERK pathway, on the activity of SK1 and sphingolipid metabolism. Using HEK293T cells transiently transfected with the K-RasG12V oncogene and both wild type and Sphk1(-/-) mouse embryonic fibroblasts stably infected with retroviral K-RasG12V, we found that K-RasG12V increases the production of S1P and decreases the production of ceramide in a SK1-dependent manner. In addition, we found that expression of the K-RasG12V oncogene leads to plasma membrane localization of SK1 and a reduction in cytosolic levels of SK1. This effect is likely mediated by the Raf/MEK/ERK pathway as constitutively active B-Raf or MEK1 are able to activate SK1, but constitutively active Akt1 is not. We believe this research has important implications for how sphingolipids may be contributing to oncogenic transformation and provide some of the first evidence for oncogenes inducing specific changes in sphingolipid metabolism through SK1 regulation.     

Epithelial Sodium Channel Regulates Adult Neural Stem Cell Proliferation in a Flow-Dependent Manner

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